Effect of Shale Reservoir Characteristics on Shale Oil Movability in the Lower Third Member of the Shahejie Formation, Zhanhua Sag

To reveal the effect of shale reservoir characteristics on the movability of shale oil and its action mechanism in the lower third member of the Shahejie Formation(Es3l), samples with different features were selected and analyzed using N2 adsorption, high-pressure mercury injection capillary pressure(MICP), nuclear magnetic resonance(NMR), high-speed centrifugation, and displacement image techniques. The results show that shale pore structure characteristics control shale oil movability directly. Movable oil saturation has a positive relationship with pore volume for radius > 2 μm, as larger pores often have higher movable oil saturation, indicating that movable oil is present in relatively larger pores. The main reasons for this are as follows. The relatively smaller pores often have oil-wetting properties because of organic matter, which has an unfavorable effect on the flow of oil, while the relatively larger pores are often wetted by water, which is helpful to shale oil movability. The rich surface provided by the relatively smaller pores is beneficial to the adsorption of immovable oil. Meanwhile, the relatively larger pores create significant pore volume for movable oil. Moreover, the larger pores often have good pore connectivity. Pores and fractures are interconnected to form a complex fracture network, which provides a good permeability channel for shale oil flow. The smaller pores are mostly distributed separately;thus, they are not conducive to the flow of shale oil. The mineral composition and fabric macroscopically affect the movability of shale oil. Calcite plays an active role in shale oil movability by increasing the brittleness of shale and is more likely to form micro-cracks under the same stress background. Clay does not utilize shale oil flow because of its large specific surface area and its block effect. The bedding structure increases the large-scale storage space and improves the connectivity of pores at different scales, which is conducive to the movability of shale oil.

Reconstruction of paleo river systems and distribution of sedimentary facies of Shanxi and lower Shihezi formations in southern Ordos basin

The study area is located in the south of Huanxian county,in Yan'an and Puxian counties and to the north of Xi'an.The Shanxi and lower Shihezi formations are important gas-bearing formations.Given our analysis of the direction of rivers,the contents of stable heavy minerals and of feldspar of palaeo river systems,the study area is divided into six palaeodrainage patterns corresponding to six feldspar regions and six sedimentary facies regions.On this basis,the distribution of sedimentary facies was also analyzed.During the Shanxi stage,a delta front was deposited in the Huanxian region and delta plains and fronts were deposited in the Pingliang,Chunhua-Yaoxian and Hancheng-Chengcheng regions.In the Yan'an-Daning region,only a delta front was developed.The distribution of sedimentary facies in the earlier Shihezi stage originated from the Shanxi stage.A delta front was developed in the Huanxian region while a delta plain and front developed in the Pingliang-Zhenyuan region during the same time.Lakes originated only in the Zhenyuan-Huanxian-Huachi-Zhengning and Daning-Jixian zones.This analytical method shows that different palaeodrainage patterns can be effectively distinguished in order to forecast sedimentary facies.

Tracing of natural gas migration by light hydrocarbons:A case study of the Dongsheng gas field in the Ordos Basin,NW China

Based on the analysis of light hydrocarbon compositions of natural gas and regional comparison in combination with the chemical components and carbon isotopic compositions of methane,the indication of geochemical characteristics of light hydrocarbons on the migration features,dissolution and escape of natural gas from the Dongsheng gas field in the Ordos Basin is revealed,and the effect of migration on specific light hydrocarbon indexes is further discussed.The study indicates that,natural gas from the Lower Shihezi Formation(Pix)in the Dongsheng gas field displays higher iso-C5-7contents than n-C5-7contents,and the C6-7light hydrocarbons are composed of paraffins with extremely low aromatic contents(<0.4%),whereas the C7light hydrocarbons are dominated by methylcyclohexane,suggesting the characteristics of coal-derived gas with the influence by secondary alterations such as dissolution.The natural gas from the Dongsheng gas field has experienced free-phase migration from south to north and different degrees of dissolution after charging,and the gas in the Shiguhao area to the north of the Borjianghaizi fault has experienced apparent diffusion loss after accumulation.Long-distance migration in free phase results in the decrease of the relative contents of the methylcyclohexane in C7 light hydrocarbons and the toluene/n-heptane ratio,as well as the increase of the n-heptane/methylcyclohexane ratio and heptane values.The dissolution causes the increase of isoheptane values of the light hydrocarbons,whereas the diffusion loss of natural gas in the Shiguhao area results in the increase of n-C5-7contents compared to the iso-C5-7contents.

Ternary analytic porosity-reduction model of sandstone compaction trend and its significance in petroleum geology: A case study of tight sandstones in Permian Lower Shihezi Formation of Shilijiahan area, Ordos Basin, China

The tight sandstones in the Permian Lower Shihezi Formation of Shilijiahan area in the Ordos Basin was taken as study object in this research to quantitatively determine the effects of burial depth, burial time and compaction strength on porosity during densification of reservoir. Firstly, sandstone compaction profiles were analyzed in detail. Secondly, the theoretical study was performed based on visco-elasto-plastic stress–strain model. Thirdly, multiple regression and iterative algorithm were used respectively to ascertain the variation trends of Young's modulus and equivalent viscosity coefficient with burial depth and burial time. Accordingly, the ternary analytic porosity-reduction model of sandstone compaction trend was established. Eventually, the reasonability of improved model was tested by comparing with thin-section statistics under microscope and the models in common use. The study shows that the new model can divide the porosity reduction into three parts, namely, elastic porosity loss, visco-plastic porosity loss and porosity loss from cementation. And the results calculated by the new model of litharenite in He 2 Member are close to the average value from the thin-section statistics on Houseknecht chart, which approximately reveals the relative magnitudes of compaction and cementation in the normal evolution trend of sandstone porosity. Furthermore, the model can more exactly depict the compaction trend of sandstone affected little by dissolution than previous compaction models, and evaluate sandstone compaction degree and its contribution to reservoir densification during different burial and uplift processes.

Basic characteristics of key interfaces in Upper Ordovician Wufeng Formation – Lower Silurian Longmaxi Formation in Sichuan Basin and its periphery,SW China

Based on anatomy of key areas and data points and analysis of typical features of shell layer in Guanyinqiao Member, basic characteristics of key interfaces, mainly bentonite layers, in the Upper Ordovician Wufeng Formation-Lower Silurian Longmaxi Formation in the Sichuan Basin and its surrounding areas and the relationship between these key interfaces with the deposition of organic-rich shale have been examined systematically. The Wufeng Formation-Longmaxi Formation has four types of marker beds with interface attributes, namely, the characteristic graptolite belt, Guanyinqiao Member shell layer, section with dense bentonite layers, and concretion section, which can be taken as key interfaces for stratigraphic division and correlation of the graptolite shale. The shell layer in Guanyinqiao Member is the most standard key interface in Wufeng Formation-Longmaxi Formation, and can also be regarded as an important indicator for judging the depositional scale of organic-rich shale in key areas. There are 8 dense bentonite sections of two types mainly occurring in 7 graptolite belts in these formations. They have similar interface characteristics with the shell layer in Guanyinqiao Member in thickness and natural gamma response, and belong to tectonic interfaces(i.e., event deposits). They have three kinds of distribution scales: whole region, large part of the region, and local part, and can be the third, fourth and fifth order sequence interfaces, and have a differential control effect on organic-rich shale deposits. The horizon the characteristic graptolite belt occurs first is the isochronous interface, which is not directly related to the deposition of organic-rich shale. Concretions only appear in local areas, and show poor stability in vertical and horizontal directions, and have no obvious relationship with the deposition of the organic-rich shale.

Key geological factors controlling the estimated ultimate recovery of shale oil and gas: A case study of the Eagle Ford shale, Gulf Coast Basin, USA

Based on 991 groups of analysis data of shale samples from the Lower Member of the Cretaceous Eagle Ford Formation of 1317 production wells and 72 systematic coring wells in the U.S. Gulf Basin, the estimated ultimate recovery(EUR) of shale oil and gas of the wells are predicted by using two classical EUR estimation models, and the average values predicted excluding the effect of engineering factors are taken as the final EUR. Key geological factors controlling EUR of shale oil and gas are fully investigated. The reservoir capacity, resources, flow capacity and fracability are the four key geological parameters controlling EUR. The storage capacity of shale oil and gas is directly controlled by total porosity and hydrocarbon-bearing porosity, and indirectly controlled by total organic carbon(TOC) and vitrinite reflectance(Ro). The resources of shale oil and gas are controlled by hydrocarbon-bearing porosity and effective shale thickness etc. The flow capacity of shale oil and gas is controlled by effective permeability, crude oil density, gas-oil ratio, condensate oil-gas ratio, formation pressure gradient, and Ro. The fracability of shale is directly controlled by brittleness index, and indirectly controlled by clay content in volume. EUR of shale oil and gas is controlled by six geological parameters: it is positively correlated with effective shale thickness, TOC and fracture porosity, negatively correlated with clay content in volume, and increases firstly and then decreases with the rise of Ro and formation pressure gradient. Under the present upper limit of horizontal well fracturing effective thickness of 65 m and the lower limit of EUR of 3×10^(4) m^(3), when TOC<2.3%, or Ro<0.85%, or clay content in volume larger than 25%, and fractures and micro-fractures aren’t developed, favorable areas of shale oil and gas hardly occur.

川中中台山地区致密砂岩储层层序特征及有利区优选

川中中台山地区须三下亚段(须三下)层序构成差异性明显、河流相砂体横向变化较快,层序地层划分较为困难,进而影响优质储层的识别与刻画。为此,基于测井、录井和地震资料,分析中台山地区须三下层序特征,圈定不同朵页体的分布范围,对储层有利区进行优选。结果表明:川中中台山地区须三下地层沉积继承了须二上亚段的地层特征,为东南高西北低、洼中隆的缓坡古构造背景,共识别出3期层序界面和2期湖泛面;致密砂岩储层矿物组分主要为岩屑和长石,孔隙类型以溶蚀孔隙、微裂缝为主;岩性组合主要有厚层砂岩组合、厚层砂夹薄层泥岩组合和厚层泥夹薄层砂岩组合三大类;结合高产井具有断裂、裂缝、储层发育,位于构造相对高部位的特征,将研究区储层划分为3类有利区。研究成果可为后续的勘探开发提供重要参考和理论支撑。

天然气运移轻烃地球化学示踪--以鄂尔多斯盆地东胜气田为例

基于天然气中轻烃化合物组成分析和区域性对比,结合组分和甲烷碳同位素组成特征,揭示轻烃地球化学特征对鄂尔多斯盆地东胜气田上古生界天然气运移和水溶及逸散等示踪作用,探讨运移作用对特定轻烃指标的关联效应。研究表明:①东胜气田二叠系下石盒子组天然气C5−7异构烷烃含量高于正构烷烃,C6−7轻烃组成呈链烷烃优势分布且芳香烃含量明显偏低(小于4.0%),C7轻烃主体呈甲基环己烷优势分布,整体表现出煤成气特征且受到了水溶等作用影响;②东胜气田天然气经历了自南向北的游离相运移,并在充注后发生不同程度的水溶作用,其中泊尔江海子断裂以北什股壕地区天然气在聚集后具有明显的散失;③长距离的游离相运移导致天然气C7轻烃中甲基环己烷相对含量和甲苯/正庚烷值降低、正庚烷/甲基环己烷值和庚烷值增大,水溶作用导致轻烃异庚烷值增大,天然气散失导致什股壕地区天然气中C5−7正构烷烃相对异构烷烃含量增加。

低丰度致密砂岩天然气分布特征及充注过程半定量评价——以鄂尔多斯盆地定北地区上古生界为例

鄂尔多斯盆地致密砂岩气藏为天然气运移路径上的滞留气藏,气藏充注程度低、丰度低、产气量低、气水关系复杂,天然气是否有效充注、充注程度如何均不明确。为此,以鄂尔多斯盆地定北地区上古生界致密砂岩气藏为例,基于岩心、测井、地震、生产动态等资料,厘清了天然气分布特征,并综合烃源岩、砂体以及断裂分布空间组合关系,确定了天然气充注方式,再根据充注点、充注动力和阻力,确定了优势充注路径,最后开展了不同充注路径下的气水分布评价。研究结果表明:(1)上古生界致密砂岩气层主要为下二叠统太原组2段第2层(太2-2层)、第3层(太2-3层)与中二叠统下石盒子组1段,同时存在气层、气水同层以及水层,气水关系复杂,气井产量差异大,存在局部高产气井;(2)致密砂岩气藏天然气充注点可分为源储邻近充注点、近源充注点以及远源充注点3类,天然气充注方式可分为砂体源内充注、砂体叠置纵横扩散充注、储集体内断裂沟通跨砂体充注以及复合充注4类;(3)建立了天然气充注路径评价参数充注动力(P_(M))和充注阻力(P_(D)),P_(M)越小,充注动力越强,P_(D)越小,充注阻力越小,P_(M)大且P_(D)小,则充注动力损失小,从充注点到井点的充注动力最强、阻力最小,为天然气优势充注路径;(4)确定了4大类11小类气水分布类型和4类充注方式下气水分布规律,其中研究区西部源内充注、近源充注、断砂有利配置充注均可形成较高丰度的天然气富集,东西部远源充注和断砂较有利配置充注可形成较低丰度的天然气富集。结论认为,该研究成果不仅可以为该区目的层寻找充注程度更高的天然气富集区提供依据,也能够在低丰度气藏区的天然气充注优势区进行有效评价,较传统方法更加精细,更适合单个气藏的精细评价。

鄂尔多斯盆地临兴中区盒7—盒8段有效储层物性下限及主控因素

针对临兴地区盒7—盒8段有效储层物性下限不明确的问题,基于物性数据、测井解释成果、试气资料、沉积相、铸体薄片等,综合累积频率法、采气指数法、交会图分析法开展了有效储层发育主控因素分析。研究表明:盒7、盒8段孔隙度下限值分别为6.0%、5.5%,渗透率下限值分别为0.05、0.04 mD。有效储层受沉积、成岩、构造作用综合控制,沉积作用控制了储层的空间展布和发育规模,是影响储层物性的主要因素;成岩作用对储层物性的影响较为复杂,其中,压实作用加剧了储层致密化程度,溶蚀作用产生的次生溶孔有利于有效储层的形成,胶结作用对有效储层发育的影响具有两面性;后期构造作用有利于形成构造成因微裂缝且促进矿物溶蚀,对改善局部储层的连通性具有积极意义。该研究对于临兴地区有效储层预测以及煤系地层油气勘探具有一定的启示作用。

川中地区大安寨段页岩热演化史及油气地质意义

下侏罗统自流井组大安寨段为四川盆地陆相页岩油开发的最有利层段,页岩油勘探潜力巨大,然而对该地层的热演化史缺乏系统研究。利用含油气盆地模拟系统,对比分析了川中地区北部与中部大安寨段页岩热演化及生烃差异,并探讨其对页岩油富集的影响。研究区大安寨段页岩现今热演化程度由西南向东北逐渐增高,平面上可分为高成熟区和成熟区。高成熟区位于研究区北部,镜质体反射率为1.3%~1.7%,主要发育Ⅲ型有机质,在晚侏罗世早期进入早期生油阶段,晚侏罗世末达到生烃高峰,存在2期生烃作用;成熟区位于研究区中—南部,镜质体反射率为0.9%~1.3%,主要发育Ⅱ1型—Ⅱ2型有机质,侏罗系沉积厚度相对较小,有机质成熟时期较晚,晚侏罗世末进入早期生油阶段,早白垩世进入生烃高峰,仅有1期生烃过程。相较于北部地区,中部地区沉积了大套的富有机质页岩,是大安寨段页岩油坚实的物质基础,但古近纪以来的构造抬升与地层剥蚀,对该区的油气保存具有一定的破坏作用。

松辽盆地西南部姚家组下段局部排泄源特征及与铀矿化关系分析

松辽盆地西南部上白垩统姚家组下段含水层是重要的铀矿化区域。为了深入了解该地区的铀成矿机制,文章采用水文地质分析、放射性元素含量测定、水化学特征分析等手段,结合区域构造和含水层结构研究,对姚家组下段局部排泄源及其与铀矿化的关系进行了深入研究。研究揭示了姚家组下段具备完整的补给-径流-排泄体系;补给区大面积发育潜水氧化带,径流区发育层间氧化带;更重要的是,确定了局部排泄源为隐伏排泄源,并发现含矿含水层地下水向上部第四系含水层排泄过程中,在局部排泄源区域引起了一系列水文地质特征的变化。局部排泄源的空间存在对铀矿化形成具有控制作用,这为松辽盆地西南部铀矿的进一步勘探提供了重要的理论依据。

川东地区下侏罗统自流井组东岳庙段泥页岩沉积特征及物质来源

川东地区下侏罗统自流井组东岳庙段发育一套深色泥页岩,具有较大的页岩气资源勘探开发潜力。将宏观大地构造背景与微观岩石学特征分析相结合,利用微量元素(包括稀土元素)数据,对川东地区下侏罗统自流井组东岳庙段泥页岩的沉积环境和物质来源进行了分析与讨论。研究结果表明:(1)川东地区下侏罗统东岳庙段自下而上依次沉积灰色介壳灰岩、灰色粉砂质泥岩、深灰色介壳泥岩、灰黑色页岩、灰—深灰色泥岩。(2)研究区东岳庙段泥页岩稀土元素总体具有轻稀土元素富集、重稀土元素亏损的特征,δCe为负异常,Ce_(anom)平均值为-0.015,V/(V+Ni)平均值为0.70,Sr/Cu平均值为2.43,Sr/Ba平均值为0.16,(La/Yb)N平均值为1.32,泥页岩沉积环境为相对贫氧的弱还原环境,整体为温暖湿润气候下的淡水沉积,且沉积速率较快,有利于有机质的富集和保存。(3)Zr/Sc-Th/Sc图和La/Sc-Co/Th图显示研究区沉积物母岩为花岗岩;Th/Sc值为0.78、Th/Co值为0.65、Th/Cr值为0.14、La/Sc值为2.14,均接近上地壳的相应元素比值,表明母岩主要为来自上地壳;La,Ce元素校正后平均质量分数分别为34.5×10^(-6)、70.71×10^(-6),La/Yb,LREE/HREE,(La/Yb)_(N)校正后的平均值分别为11.32,8.13,7.67,δEu校正后的平均值为0.82,表明其与大陆岛弧相近,且La-Th-Sc,Th-Sc-Zr/10和Th-Co-Zr/10等3个三角图显示其构造背景为大陆岛弧。因此,研究区东岳庙段物质来源于北东侧大巴山和东南侧江南古陆(雪峰古陆)。

渤海湾盆地辽中凹陷北部东营组沉积体系发育演化与构造古地貌的控制作用

根据地震和钻、测井资料,识别渤海湾盆地东北部辽中凹陷北部东营组中下段地震相和岩相组合类型,揭示沉积体系的发育演化规律;拉平古水平面,恢复东营组沉积时期构造古地貌,探讨构造古地貌对沉积体系发育演化的控制作用。结果表明:辽中凹陷北部东营组中下段可识别6种地震相与9种岩相组合类型,发育辫状河三角洲、曲流河三角洲、湖底扇以及碎屑湖泊等沉积,北部由辫状河三角洲演变为双向供源的曲流河三角洲-湖底扇,中南部早期发育小型辫状河三角洲并逐渐消亡,南部小型辫状河三角洲逐渐向北推进;东营组中下段沉积期研究区整体南高北低,可划分辽东凸起和辽中凹陷2个隆坳单元,进一步识别断裂陡坡带、缓坡断阶带、缓坡带、古沟谷等构造古地貌单元;研究区发育的沉积体系类型及规模与古坡折坡度、凹陷沉降中心位置、古沟谷规模密切相关,沉积体系的分布演化是盆地隆坳格局、坡折地貌形态、古沟谷发育位置与物源供给方向共同作用的结果。该结果对研究区油气勘探有利砂体预测具有指导意义。

鄂尔多斯盆地东缘木瓜区下石盒子组致密砂岩储层甜点预测

鄂尔多斯盆地东缘神府木瓜区上古生界属于典型的致密砂岩气藏,储层甜点受岩性、物性多重因素控制。下石盒子组盒8段为辫状河沉积,砂岩与泥岩波阻抗差异小,因此常规波阻抗反演方法和地震属性难以达到有效储层预测。通过神经网络技术,对下石盒子组致密砂岩储层进行预测,应用效果较好,为该技术的推广应用提供了依据。

四川盆地蓬莱—中江地区震旦系灯影组二段成藏特征

通过钻井、岩心、测录井及地震资料的综合分析,系统研究了四川盆地蓬莱—中江地区震旦系灯影组二段气藏的成藏特征。研究结果表明:(1)四川盆地灯影组沉积期,随着海水侵入,古陆多被淹没或侵蚀夷平,盆地逐渐演变为碳酸盐岩台地。灯二上亚段沉积期,川中北斜坡蓬莱—中江地区以发育台地边缘滩相和台地边缘丘相为特色,并可细分为滩核、滩缘、滩间海、丘核、丘缘、丘间海6种亚相,是储层发育的有利相带。(2)研究区灯二上亚段储层以藻云岩、藻砂屑云岩为主要储集岩,发育残余粒间孔+粒间溶孔型、粒内溶孔+藻格架孔型、裂缝型与孔洞型4种类型的储层,储层厚度分布特征与沉积相分布特征较吻合,位于台地边缘丘滩核的储层累积厚度大。(3)研究区灯二上亚段气藏的天然气主要来源于筇竹寺组烃源岩,烃源岩厚度大、有机碳含量及热演化程度高,气藏具备较好的烃源条件和封盖条件,具有“上生下储上盖”和“旁生侧储上盖”2种较好的生-储-盖配置关系。(4)研究区油气充注主要发生于三叠纪—白垩纪,为多期“准连续”型,灯二上亚段气藏主要经历了奥陶纪—志留纪古油气藏聚集阶段、志留纪—石炭纪古油藏破坏阶段、二叠纪—三叠纪再次生烃成油藏阶段和三叠纪—侏罗纪原油裂解生气阶段。

源外层系油气运聚关键环节研究与评价方法——以渤海湾盆地渤中凹陷明化镇组下段为例

油气运聚是源外层系规模性成藏的关键之一。利用渤海湾盆地渤中地区丰富的三维地震和钻井数据分析,从断裂带深层垂向输导、馆陶组二次汇聚及明化镇组下段(明下段)侧向分流3个主要运聚环节分析入手,对明下段砂体烃柱高度进行分析。研究认为,烃源超压-断层活动耦合作用是断裂带垂向输导的关键,在烃源充足条件下断裂带分形维数大于0.7时,油气垂向输导能力较强;富砂型层系形成的早期油藏控制油气二次汇聚能力,利用馆陶组圈闭面积和有效幅度等计算汇聚系数,当馆陶组汇聚系数大于700 km3时,对应明下段具备发育大、中型油田的基础;断层的泄压控制浅层砂体侧向分流环节,利用砂体高部位和低部位断-砂接触面积计算泄压系数,当明下段砂体泄压系数大于2.0时,砂体烃柱高度可超过30 m。3个主要运聚环节紧密配合,是富生烃凹陷源外层系高丰度油藏形成的必要条件。

东胜气田A井区二叠系下石盒子组高含水气藏地质建模

为了精细描述致密高含水气藏可供开发调整的有利区、明确储集层参数的空间展布特征,以鄂尔多斯盆地东胜气田A井区二叠系下石盒子组气藏为研究对象,分析了适合高含水气藏的建模方法,综合岩心、测井、钻井等资料,借助Petrel软件建立了该区下石盒子组气藏三维地质模型。研究结果表明:①研究区整体上为北东高、南西低的宽缓单斜,区内发育两条正断层、小型鼻状隆起以及背斜构造;②盒1段河道及复合心滩规模较大,呈“砂包泥”状,盒2+3段河道及心滩规模相对较小,呈“泥包砂”状,研究区泥岩夹层占比为50%,粉砂岩夹层和致密层夹层占比为30%;③所建模型数据与实际钻井情况较为相符,能够快速高效地计算研究区天然气地质储量,计算出A井区下石盒子组气藏天然气地质储量为341.16×10^(8) m^(3)。结论认为:①利用精细水平井单层划分成果细化地层微构造可以建立全区精细构造模型;②建立水平井构型控制的沉积微相模型及隔夹层模型能有效提高物性参数模型的准确度和有效性;③沉积微相、岩石相、断层等主控因素约束的水平井气藏属性参数建模能有效提高物性参数模型的准确度和有效性,在致密高含水气藏“多、薄、窄、密、强、杂”型的储层空间中适用性好。

东营凹陷深层自源型油气成藏模式与勘探实践

东营凹陷深层是以“红层”为典型特征的沙河街组四段下亚段(沙四下亚段)—孔店组,该套层系沉积厚度大、储量发现少,蕴含着极大的勘探潜力。综合深层烃源岩评价、高成熟油源对比及自源型油气成藏模式的系统分析,明确了深层沙四下亚段和孔店组二段(孔二段)两套烃源岩的基本特征,落实了深层的资源潜力,同时深入剖析关键成藏要素条件,建立了自源型差异油气成藏模式。研究表明,深层孔二段烃源岩有机质类型为Ⅱ_(1)—Ⅲ型,评价为过成熟中等烃源岩;沙四下亚段烃源岩有机质类型为Ⅰ—Ⅱ_(1)型,评价为成熟优质烃源岩。利用原型盆地的井—震追踪落实烃源岩展布,进而评价出深层资源量为11.35×10^(8)t。同时,建立了两种自源型油气藏的差异成藏模式,一种是陡坡带沙四下亚段烃源岩直接对接深层砂砾岩储层,匹配形成凝析油气—常规油的纵向有序油气藏;另一种是南部斜坡带孔店组源内的“源—断—储—圈”差异油气运聚模式。分析认为,基于东营凹陷深层烃源岩品质与规模的深化认识,以及两种自源型油藏模式的认识可将勘探目的层至少下探1500m,初步估算新增圈闭资源量近2×10^(8)t,东营凹陷深层自源型油藏预计在“十四五”期间迎来重大突破。

松辽盆地南部海力锦铀矿床姚家组下段黏土矿物特征及其铀成矿意义

黏土矿物是表征盆地砂岩型铀矿含矿建造地球化学环境以及反演其经历的表生流体作用的重要指示性矿物。文章以钱家店凹陷新发现的海力锦铀矿床含矿层姚家组下段为研究对象,通过偏光显微镜、X射线衍射、扫描电镜及能谱分析等方法,系统开展了不同地球化学分带的岩石学、黏土矿物类型、形貌及含量等特征研究。姚家组下段红色和灰色泥岩原生黏土矿物组合为伊利石+伊蒙混层,高岭石含量较低,总体反映了沉积期偏干旱炎热古气候环境。泥岩中不同类型黏土矿物含量具有一定的相关性,推测其在沉积-成岩过程中存在一定的相互转化关系。与泥岩明显不同,各地球化学分带砂岩中的黏土矿物主要为高岭石,其次为伊利石和伊蒙混层,显示具有后生外来酸性流体改造的特点,应发生在区域层间氧化水渗入之前。铀含量与黏土矿物含量间没有明显的相关性,结合镜下铀-黏土矿物空间赋存关系和区内构造-流体演化史显示,矿石中铀沉淀富集受多种吸附还原剂控制,局部与高岭石关系密切,存在一期深部酸性还原流体渗出改造作用,为原生偏弱还原性的姚家组下段砂岩铀成矿提供了有利条件。